利用空气、地面和井内电磁感应方法表征CO2注入现场的初始状态电导率分布

Q2 Earth and Planetary Sciences Environmental Geosciences Pub Date : 2015-09-01 DOI:10.1306/EG.06191515004
L. Costard, J. G. Paine
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引用次数: 2

摘要

利用电磁(EM)方法对某油田近地表地质地层和初始电导率分布进行了表征,以评估和监测碳封存实验可能对近地表环境产生的影响。现场研究是在Cranfield field进行的,该油田位于密西西比州西部的Tuscaloosa地层下白垩纪,是一个EOR油田,该油田正在被注入一个枯竭的油气储层。该研究的重点是第三纪和更年轻的地层,这些地层位于地表至最大深度约200米(656英尺)之间,在油气藏和注入区上方3000米(9843英尺)以上。它包括收集频域电磁数据的航空地球物理调查、时域地面电磁测量、电磁感应井眼测井、自然伽马谱和水位测量。比较了不同的井眼电磁资料温度漂移校正方法;通过结合井下和井下两个方向的双向测量,获得了一致且准确的电导率值。机载电磁测量提供了大面积的数据,为后续的地面和井眼测量提供了足够的细节,地面时域数据提供了更深的深度,井眼感应数据提供了必要的细节。这三种方法在面积覆盖、水平和垂直分辨率以及勘探深度等方面相互补充。总之,它们可以提供研究区域的全面近地表特征,这对于建立初始状态条件是必要的,从而支持未来对潜在迁移到近地表环境的监测。
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Characterizing initial-state conductivity distribution at a CO2 injection site with airborne, surface, and borehole electromagnetic induction methods
Electromagnetic (EM) methods were used to characterize (1) the general near-surface geology and stratigraphy and (2) the initial electrical conductivity distribution at a enhanced oil recovery (EOR) site to assess and monitor possible near-surface environmental impacts of a carbon sequestration experiment. The field study was conducted at Cranfield Field, an EOR site where is being injected into a depleted oil and gas reservoir in the Cretaceous lower Tuscaloosa Formation in western Mississippi. The study focused on Tertiary and younger strata between the ground surface and maximum depths of approximately 200 m (656 ft) that host groundwater more than 3000 m (9843 ft) above the oil and gas reservoir and injection zone. It included an airborne geophysical survey collecting frequency-domain EM data, time-domain surface EM measurements, borehole logging with EM induction, natural gamma spectra, and water-level measurements. Different approaches of temperature drift corrections for the borehole EM data were compared; good results of consistent and accurate conductivity values were produced by combining both directions of a two-way (uphole and downhole) measurement. The airborne EM provided data over a large area with sufficient detail to give an overview for the subsequent surface and borehole surveys, the surface time-domain data gave insight into greater depths, and the borehole induction data provided the necessary details. These three EM methods complement each other in areal coverage, lateral and vertical resolution, and exploration depth. Together, they can provide a comprehensive near-surface characterization of the study area that is necessary to establish initial-state conditions that support future monitoring of potential migration to the near-surface environment.
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Environmental Geosciences
Environmental Geosciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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